Patent application number | Description | Published |
20130168866 | CHIP-ON-LEAD PACKAGE AND METHOD OF FORMING - In one embodiment, a chip-on-lead package structures includes an electronic chip having opposing major surfaces. One major surface of the electronic chip is attached to first and second leads. The one major surface is electrically connected to the first lead, and electrically isolated from the second lead. The other major surface where active device are formed may be electrically connected to the second lead. | 07-04-2013 |
20140248747 | CHIP-ON-LEAD PACKAGE AND METHOD OF FORMING - In one embodiment, a chip-on-lead package structures includes an electronic chip having opposing major surfaces. One major surface of the electronic chip is attached to first and second leads. The one major surface is electrically connected to the first lead, and electrically isolated from the second lead. The other major surface where active device are formed may be electrically connected to the second lead. | 09-04-2014 |
20150189772 | SEMICONDUCTOR PACKAGE AND METHOD THEREFOR - In one embodiment, a semiconductor package may be formed having a first side and a second side that is substantially opposite to the first side. An embodiment may include forming an attachment clip extending substantially laterally between the first and second sides wherein the attachment clip is positioned near a distal end of the first and second sides. An embodiment may also include forming the attachment clip to have a flexible main portion that can bend away from a plane of the main portion toward a bottom side of the semiconductor package. | 07-02-2015 |
20150364847 | FLEXIBLE PRESS FIT PINS FOR SEMICONDUCTOR PACKAGES AND RELATED METHODS - A pin for a semiconductor package includes an upper contact portion having a contact surface configured to mechanically and electrically couple with a pin receiver. A lower portion of the pin is configured to flex to allow an upper portion of the pin to move towards an upper contact surface of a horizontal base of the pin in response to a pressure applied along a direction collinear with a longest length of the pin towards the upper contact surface of the horizontal base when the pin is inserted into a pin receiver. Some implementations of pins include a vertical stop to stop movement of the pin when a surface of the vertical stop contacts the upper contact surface of the horizontal base. Varying implementations of pins include: two curved legs and one vertical stop; two partially curved legs and no vertical stop, and; a single leg bent into an N-shape. | 12-17-2015 |
20160104662 | METHOD AND SYSTEM FOR EXTENDING DIE SIZE AND PACKAGED SEMICONDUCTOR DEVICES INCORPORATING THE SAME - A packaged semiconductor device includes a die flag and a plurality of lead frame fingers each having a proximate end spaced apart from the die flag. A first surface of a spacer mechanically and electrically couples to a first surface of the die flag, and a first surface of a die mechanically and electrically couples to a second surface of the spacer. At least one electrical connector electrically couples an electrical contact on a second surface of the die with a lead frame finger. A molding compound encapsulates the die, spacer, at least a portion of the at least one electrical connector, at least a portion of the die flag, and at least a portion of each lead frame finger. A width of the spacer along the second surface of the spacer is greater than a width of the die flag along the first surface of the die flag. | 04-14-2016 |
20160111581 | PACKAGED SEMICONDUCTOR DEVICES AND RELATED METHODS - A packaged semiconductor device includes a substrate, a die, at least one electrical connector, a first mold compound formed of translucent material, and a second mold compound. A first face of the die is electrically and mechanically coupled to the substrate. The at least one electrical connector electrically couples at least one electrical contact on a second face of the die with at least one conductive path of the substrate. The first mold compound formed of a translucent material at least partially encapsulates the die and the at least one electrical connector. The second mold compound at least partially encapsulates the first mold compound and forms a window through which the first mold compound is exposed. In implementations the second mold compound is opaque and the first mold compound is transparent. In implementations the substrate includes a lead frame having a die flag and a plurality of lead frame fingers. | 04-21-2016 |